Abstract: A method of fabricating a semiconductor device is provided. The method includes forming BPR structures filled with a replacement BPR material, first S/D structures, first replacement silicide layers, and a pre-metallization dielectric that covers the first replacement silicide layers and the first S/D structures. The method also includes forming first interconnect openings in the pre-metallization dielectric and first replacement interconnect layers in the first interconnect openings. The first replacement interconnect layers are connected to the first replacement silicide layers. A thermal process is executed. The method further includes replacing, from a first side of the first wafer, a first group of the first replacement interconnect layers, a first group of the first replacement silicide layers, and the replacement BPR material, and replacing, from a second side of the first wafer, a second group of the first replacement interconnect layers, and a second group of the first replacement silicide layers.

Abstract: A method of fabricating a semiconductor device is provided. The method includes forming BPR structures filled with a replacement BPR material, first S/D structures, first replacement silicide layers, and a pre-metallization dielectric that covers the first replacement silicide layers and the first S/D structures. The method also includes forming first interconnect openings in the pre-metallization dielectric and first replacement interconnect layers in the first interconnect openings. The first replacement interconnect layers are connected to the first replacement silicide layers. A thermal process is executed. The method further includes replacing, from a first side of the first wafer, a first group of the first replacement interconnect layers, a first group of the first replacement silicide layers, and the replacement BPR material, and replacing, from a second side of the first wafer, a second group of the first replacement interconnect layers, and a second group of the first replacement silicide layers.

Abstract: Embodiments of the present invention are directed to techniques for forming a robust low-k bottom spacer for a vertical field effect transistor (VFET) using a spacer first, shallow trench isolation last process integration. In a non-limiting embodiment of the invention, a semiconductor fin is formed over a substrate. A first dielectric liner is formed on a sidewall of the semiconductor fin. A bottom spacer is formed over the substrate and on a sidewall of the first dielectric liner. The first dielectric liner is positioned between the semiconductor fin and the bottom spacer. Portions of the bottom spacer are removed to define a shallow trench isolation region.